A centrifugal switch is a component commonly used in single-phase induction motors, specifically in capacitor-start motors. Its main function is to disconnect the start winding and its associated capacitor from the motor circuit once the motor reaches a certain speed. This switching action is essential for the motor's proper operation, as it prevents the start winding and capacitor from remaining active during normal running conditions, which could lead to inefficiencies, overheating, or even damage to the motor.
Here's how the centrifugal switch works to disconnect the start winding in a capacitor-start motor:
Initial Starting Phase: When the motor is initially powered on, both the main winding and the start winding are energized. The start winding is responsible for creating the rotating magnetic field required for the motor to start turning. Additionally, a start capacitor is connected in series with the start winding. This capacitor helps create a phase shift between the currents in the main and start windings, enabling the motor to start.
Centrifugal Force Activation: As the motor begins to spin, the centrifugal switch is mounted on the motor's rotor shaft and is designed with spring-loaded contacts. The switch is positioned in a way that when the motor is stationary or rotating at very low speeds, the spring keeps the switch contacts closed.
Switch Opening: As the motor accelerates, the centrifugal force generated by the spinning rotor increases. At a certain predetermined speed (the motor's starting speed), the centrifugal force becomes strong enough to overcome the spring tension holding the switch contacts closed. When this happens, the contacts of the centrifugal switch open.
Start Winding Disconnection: When the centrifugal switch contacts open, the electrical connection to the start winding and its associated start capacitor is broken. This effectively removes the start winding and capacitor from the motor circuit. As a result, the motor continues to run on the main winding alone, which is more suitable for continuous operation at normal running speeds.
Running Phase: With the start winding and capacitor disconnected, the motor operates with improved efficiency and reduced energy consumption. The main winding generates the necessary rotating magnetic field for the motor's ongoing operation. The centrifugal switch remains open as long as the motor continues to run above the switch's closing speed.
It's important to note that the design and operation of centrifugal switches can vary based on the specific motor's characteristics and requirements. However, the general principle remains the same: the centrifugal force generated by the spinning rotor is utilized to mechanically open the switch contacts and disconnect the start winding and capacitor, transitioning the motor from the starting phase to the running phase.